Month: March 2014

For the Raspberry Pi’s second birthday, the Raspi foundation gave us all a very cool gift. Broadcom released the full documentation for the graphics on one of their cellphone chips and offered up a $10k prize to the first person to port that code over to the graphics processor on the Pi and run Quake III. The prize has been claimed, forming the foundation for anyone wanting a completely documented video core on the Pi.

The person to claim this prize is one [Simon Hall], author of the DMA module that’s in the current Raspbian release. Even though Quake III already runs on the Pi, it does so with a closed source driver. [Simon]’s work opens up the VideoCore in the Pi to everyone, especially useful for anyone banging their heads against the limitations of the Pi platform.

You can get your hands on the new video drivers right now, simply by downloading and compiling all the sources. Be warned, though: recompiling everything takes around 12 hours. We’re expecting a Raspbian update soon.

We’re starting to like this [Rodger Cleye] fellow. First he brings us the awesome [Marty Mcfly] quadcopter-hoverboard — and now this. He had originally converted his old recliner into a RC comfortable transportation chair in attempt to sell it at a garage sale, and after that decided a one-seater was just too boring. It’s much more fun to lounge with a friend while cruising down the street in your love seat.

It runs off of a 24V DC system with two 15aH SLA batteries. This gets it going to about 5mph, and the battery lasts well over 2 hours. The coconut has a straw sticking out of it which is actually the joystick — a very discrete control unit!

Still not satisfied, he decided to throw on a 25W audio system as well, so they can play their Hawaiian music while weirding out the neighbors. Take a look after the break.

What happens when you strap 48 Raspberry Pi cameras together with nearly half a kilometer of network cables? You get your own bullet time capture rig.

Originally inspired by the unique film effect of the Matrix and an old BBC documentary called Supernatural: The Unseen Powers of Animals, the owner of PiFace decided to try re-creating the bullet time effect himself.

To create the rig they’ve taken 48 Raspberry Pis, each with a PiFace controller board and the standard camera. The controller board allows the Raspberry Pi to be used without a keyboard or mouse, so all the network cables have to do is send a simple code to each pi in order to take the pictures. A simple laser cut wood profile is used to snap them all together into a giant ring.

While 48 Raspberry Pis is a lot, they think this is a reasonable project for a classroom environment — besides, how cool would it be to go to school and film your own bullet time stunts?

After reading an April Fools joke we fell for, [Mortimer] decided to replicate this project that turns the common USB mouse into a powerful tool that can bring down corporations and governments. Actually, he just gave himself one-click access to Hackaday, but that’s just as good.

The guts of this modified mouse are pretty simple; the left click, right click, and wheel click of the mouse are wired up to three pins on an Arduino Pro Micro. The USB port of the ‘duino is configured as a USB HID device and has the ability to send keyboard commands in response to any input on the mouse.

It’s been quiet these last few weeks in drone news. Some members of the commercial community are performing missions, while others are waiting on the results of the FAA’s appeal to the NTSB. There is no denying that drones are getting larger as an industry though. Even Facebook has jumped into the fray, not for drones to deliver real world pokes, but to provide internet access in remote areas.

One of the high points in the news was an octocopter operator’s discovery of 2500 year old rock drawings, or petroglyphs in the Utah desert. While exploring a known archeological site, Bill Clary of GotAerial LLC flew his octocopter up to a cliff face. The rock formation would have made rappelling down the face difficult at best. He found an amazing collection of petroglyphs which he documented in this video. While the authenticity of the petroglyphs hasn’t been proven yet, they appear to date back to the Basketmaker people who lived in the area from approximately 500 BC through 860AD.

Maybe you’re asking yourself how you can get in on some of these sweet drone adventures? Whether you’re considering your very first flight, or already own multiple aircraft, you’ll want to read our discussion of getting started (specifically: acquiring your first drone) and discovering drone-related communities. Hit that “read more” link to stay with us.

Buy an Xbox One controller and hack it immediately? That’s exactly what [tEEonE] did so he could merge it with a Simraceway SRW-S1 steering wheel. He loves racing games and was psyched to play Forza 5. He already had the steering wheel, but it’s strictly a PC peripheral. [tEEonE] wanted the wheel to control the steering, gas, and brakes and found both the XB1 controller and the SRW-S1 well-suited to the hack.

For steering, [tEEonE] substituted the SRW-S1’s accelerometer for the XB1’s left joystick pot. He connected the X and Y to analog pins on an Arduino Pro. Then he mapped the rotation angles to voltage levels using a DAC and wired that to the XB1 joystick output. The XB1 controller uses Hall effect sensors and magnets on the triggers to control the gas and brake. He removed these and wired the SRW-S1 paddles to their outputs and the XB1 controller is none the wiser.

He also rigged up a 3-point control system to control the sensitivity and calibrate the angles: a button to toggle through menu items and two touch modules to increment and decrement the value. These he wired up to a feedback interface made by reusing a 15-LED strip from the SRW-S1. Finally, he had space left inside the housing for the XB1’s big rumble motors and was able to attach the small motors to the gas and brake paddles with the help of some 3-D printed attachments. Check out this awesome hack in action after the break.

For about a week [Justin] had a wireless acidity level sensor in his esophagus and a pager-looking RF receiver in his pocket. So he naturally decided to use an RTL-SDR dongle to sniff the signals coming out of him. As most of our Hackaday readers know, these cheap RTL2382U-based DVB-T receivers are very handy when it comes to listening to anything between 50MHz and 1800MHz. [Justin] actually did a great job at listing all the things these receivers can be used for (aircraft traffic monitoring, weather images download, electric meter reading, pacemaker monitoring…).

After some Googling he managed to find his Bravo pH sensor user’s guide and therefore discovered its main frequency and modulation scheme (433.92MHz / ASK). [Justin] then used gqrx and Audacity to manually decode the packets before writing a browser-based tool which uses an audio file. Finally, a few additional hours of thinking allowed him to extract his dear esophagus’ pH value.